Fire-Lite CH6 Data Sheet

BEFORE INSTALLINGThis information is included as a quick reference installation guide. Refer to the appropriate Fire•Lite control panel installation manual for detailed sys-tem information. If the modules will be installed in an existing operational system, inform the operator and local authority that the system will be tempo-rarily out of service. Disconnect the power to the control panel before install-ing the modules. This system contains static sensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. The module housing should also be grounded.

NOTICE: This manual should be left with the owner/user of this equipment.

GENERAL DESCRIPTIONThe CMF-300-6 Six Supervised Control Module is intended for use in an in-telligent alarm system. Each module is intended for switching applications involving AC or DC which require wiring supervision. A common SLC input is used for all modules. Each module has its own address. A pair of rotary code switches is used to set the address of the first module from 01 to 154. The remaining modules are automatically assigned to the next five higher addresses. Provisions are included for disabling a maximum of three unused

F300-21-00 1 I56-1874-016

SPECIFICATIONSNormal Operating Voltage: 15-32 VDCStand-By Current: 2.65 mA @ 24VAlarm Current: 35 mA (assumes all six relays have been switched once and all six LEDs solid on)Temperature Range: 32°F to 120°F (0°C to 49°C)Humidity: 10 to 93% Non-condensingDimensions: 6.8˝H x 5.8˝W x 1.25˝DAccessories: CH-6 Chassis; BB-6 Cabinet; BB-2 CabinetWire Gauge: 12-18 AWGMax. NAC Circuit Line Loss: 4 VDCPower Rating Per Circuit (Speakers): 50 W @ 70.7 VAC; 50 W @ 25 VACMaximum NAC Current Ratings: For class B wiring systems, 3A; For class A wiring systems, 2A

INSTALLATION AND MAINTENANCE INSTRUCTIONS

TABLE 1: SHORT CIRCUIT PROTECTION - UL 864 9TH EDITION REQUIREMENTS

NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION, AND OTHER INVOLVED PARTIES

This product incorporates field-programmable software. In order for the product to comply with requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all as indicated below.

PROGRAM FEATURE OR OPTIONPERMITTED IN UL 864 (Y/N)

POSSIBLE SETTINGS SETTINGS PERMITTED IN UL 864

Disabling short circuit protection when a single power supply is shared by multiple NACs

No Enable or Disable short circuit protection

Enable short circuit protection when a single power supply is shared by multiple NACs. Short circuit protection can be disabled only when a power supply is not shared by multiple NACs.

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CMF-300-6 Six Supervised Control ModuleOne FireLite Place

Northford, CT 06472Phone: 203.484.7161

RELAY CONTACT RATINGS:

CURRENT RATING MAXIMUM VOLTAGE LOAD DESCRIPTION APPLICATION

2 A 25 VAC PF = 0.35 Non-coded

3 A 30 VDC Resistive Non-coded

2 A 30 VDC Resistive Coded

0.46 A 30 VDC (L/R = 20ms) Non-coded

0.7 A 70.7 VAC PF = 0.35 Non-coded

0.9 A 125 VDC Resistive Non-coded

0.5 A 125 VAC PF = 0.75 Non-coded

0.3 A 125 VAC PF = 0.35 Non-coded

modules to release the addresses to be used elsewhere. Each module also has panel controlled green LED indicators. The panel can cause the LEDs to blink, latch on, or latch off.

In order to synchronize strobes, horn/strobes, and speaker/strobes, a SYNC-1 accessory card (sold separately) must be used with the CMF-300-6. See the SYNC-1 installation manual for details on how to install.

Each module has terminals for connection to an external supply circuit for powering devices on its NAC. Each supply must be power limited and its volt-age/current limits must be at or below those specified. There is a short circuit protection monitor for each module. This is provided to protect the external power supply against short circuit conditions on the NAC.

The front CMF-300-6 module positions of each chassis are offset below the rear CMF-300-6 module positions so that all of the status indicators are visible.

Cabinets

A BB-6 cabinet will house the CH-6 chassis with up to six CMF-300-6 modules installed on it. Refer to cabinet installation documents for dimensions and installation instructions.

The BB-2 cabinet houses one or two CMF-300-6 modules on the internal chas-sis that is part of the cabinet. Refer to cabinet installation documents for di-mensions and installation instructions.

INSTALLATION STEPS1. Cabinet Mounting

In a clean, dry area, mount the backbox using the four holes provided in the back surface of the cabinet (Figure 3).

2. Chassis Installation

The CH-6 chassis is mounted in the BB-6 cabinet. It is shipped with two self-threading screws, which are used to fasten the chassis to the back wall of the cabinet (see Figure 4).

The BB-2 cabinet comes with the chassis already installed, so no mount-ing is necessary.

FIGURE 3: TYPICAL MOUNTING HOLE LOCATIONS

BACKBOXMOUNTINGHOLES

C0235-00

FIGURE 4: MOUNTING THE CH-6 CHASSIS

MOUNT WITHSELF-THREADING SCREWS

TO BACK OF CABINET

3. Module Installation

There are two methods for installing a module in the rear position of a chassis. Method one is for installation of a rear module only, when no module will be installed in front of it. Refer to Figure 5 for instructions. Method two is for installation of a rear module when another module will be installed in the chassis position in front of it. Refer to Figures 6a and 6b for method two. All necessary screws and standoffs are supplied with the modules.

COMPATIBILITY REQUIREMENTSTo ensure proper operation, this module shall be connected to a compatible Fire•Lite system control panel (list available from Fire•Lite).

COMPONENTSFollowing are descriptions of the CMF-300-6 mounting frameworks. There are two mounting options for CMF-300-6 modules:

• Up to six CMF-300-6 modules can be installed on a CH-6 in a BB-6 cabinet.

• One or two CMF-300-6 modules can be installed in a BB-2 cabinet.

CHASSIS The CH-6 chassis is used to mount CMF-300-6 modules in a BB-6 cabinet. It accommodates up to six CMF-300-6 modules in a single cabinet row three modules wide and two modules deep.

FIGURE 1: CH-6 CHASSIS

C0206-00

The BB-2 cabinet has a built-in chassis that will accommodate one or two CMF-300-6 modules.

FIGURE 2: BB-2 CABINET

01

2 3 4 5 67

89

0 78

654321

91011121314

15

BASE ADD

RESS

ADD

RESS

DISABLE

NONEONETW

OTHREE

01

2 3 4 5 67

89

0 78

654321

91011121314

15

BASE ADD

RESS

ADD

RESS

DISABLE

NONEONETW

OTHREE

C0234-00

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C0236-0

INCLUDED:SHIPPED ON BOARD:(1) Small shunt in Class A/B position (Shipped in Class B position, remove

shunt for Class (A)

(6) Large shunts on Enabled Power Supply Monitor

(6) Large shunts on Desable Short Circuit Protection

(3) Large Shunts on Sync Generator

(7) 1 × 4 TERMINAL BLOCKS

(7) 1¼˝ (32mm) STANDOFFS

(15) LARGE SHUNTS

(4) MACHINE SCREWS

(2) NUTS

(5) SHORT POWER SUPPLY JUMPERS

(2) SMALL SHUNTS

(1) LONG POWER SUPPLY JUMPER

(2) EOL RELAY CONNECTOR ASSEMBLES

(6) 47K OHM END OF LINE RESISTORS C0958-00

WIRINGNOTE: All wiring must conform to applicable local codes, ordinances, and regulations.1. Install module wiring in accordance with the job drawings and appropri-

ate wiring diagrams.

2. All wiring to the CMF-300-6 is done via terminal blocks. In order to prop-erly make electrical connections strip approximately 1/4˝ of insulation from the end of wire, sliding the bare end of the wire under the clamping plate screw.

3. Set the address on the modules per the job drawing. Use the rotary code switches to set the address of the first module (between 01 and 154).

In Class B operation, the remaining modules are automatically assigned to the next five higher addresses. For example, if the base address switch is set to 28, the next five modules will be addressed to 29, 30, 31, 32, and 33.

In Class A operation, a maximum of three Class A circuits are available. For example, if the base address switch is set to 28, 30 and 32 will be automati-cally assigned to the modules while 29, 31 and 33 are available to be used for other modules on the SLC. For Class A and B operation, DO NOT set the low-est address above 154, as the other modules will be assigned to nonexistent addresses.

NOTE: All references to power limited represent “Power Limited (Class 2)”.NOTE: Some panels support extended addressing. In order to set the module above address 99 on compatible systems, carefully remove the stop on the upper rotary switch (see Figure 7). If the panel does not support extended ad-dressing, do not set the lowest address above 94.

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FIGURE 5: INSTALLATION OF REAR MODULE ONLY, METHOD ONE

23

1

C0237-00

Step 1: Insert the bottom of the CMF-300-6 module down into a rear slot on the chassis.

Step 2: Carefully swing the upper edge of the board back towards the back of the chassis until it touches the two standoffs.

Step 3: Align two 4-40 screws with the two standoffs and tighten.

Step 4: Address and wire the modules according to the instructions in this manual.

The steps in Figures 6a and 6b describe and illustrate module installation when the rear chassis position and the position in front of it will be filled. Front position installation is possible only if the rear position is filled with a module.

FIGURE 6A:INSTALLATION OF CMF-300-6 MODULE IN A REAR

CHASSIS POSITION, METHOD TWO

1

C0225-00

Step 1: Insert the bottom edge of the CMF-300-6 module down into a rear slot of the chassis.

Step 2: Carefully swing the upper edge of the board towards the back of the chassis until it touches the short stand off attached to the chassis.

Step 3: Align the long standoff with the short standoff and tighten.

FIGURE 6B:INSTALLATION OF CMF-300-6 MODULE IN FRONT

CHASSIS POSITION

23

1

C0226-00

Step 1: Insert the bottom edge of the CMF-300-6 module down into a front slot of the chassis.

Step 2: Carefully swing the upper edge of the board towards the back of the chassis until it touches the 11/4˝ (31.75mm) standoffs installed on the rear module.

Step 3: Align two 4-40 screws with the two standoffs and tighten.

Step 4: Address and wire the modules according to the instructions in this manual.

TENS0

7 865432

1

910111213

1415

FIGURE 7:

C0227-004. A shunt is provided to disable a maximum of three unused modules

(see Figure 8). Modules are disabled from the highest address and work downward. If two modules are disabled, the lowest four addresses will be functional, while the highest two will be disabled. For example, if the shunt for Address Disable is placed on “two” and the base address switch is set to 28, the modules will be assigned to 28, 29, 30 and 31, disabling the highest two positions.

NOTE: In Class A operation, placing the small shunt on “disable 3˝ will dis-able all three addresses. Placing the small shunt on “disable 2˝ will disable two out of the three addresses. For example, if the address switch is set to 28 and the small shunt is placed on “disable 2˝, addresses 30 and 32 will be disabled while address 28 will be enabled.5. There is a short circuit protection option for each address. The board is

shipped with short circuit protection disabled for each address repre-sented by six large shunts on the “Disable Short Circuit Protection” area. To enable short circuit protection for an address, remove the correspond-ing pins from the “Disable Short Circuit Protection” area. When enabled, the module will not switch power supply if a short circuit condition ex-ists on a notification appliance circuit.

NOTE: Power must not be applied to the unit when changing functionality of the shunts.NOTE: Place unused shunts on single pin to store on board for future use.NOTE: The power supply monitoring feature is currently not supported.NOTE: SLC wiring is the top terminal block, notification appliance/power sup-ply is the bottom.NOTE: Whether in Class B or Class A wiring, power supply monitoring and short circuit protection must be enabled on the NAC circuits that are sharing a power supply.NOTE: Short circuit protection can only be disabled if a power supply is not being shared by multiple NACs.NOTE: Power supply monitoring should not be used for audio applications. The short circuit protection feature is also not available for audio applications.

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TABLE 3:

PS OR NAC NUMBER (TERMINAL / PINS) TERMINAL / PINS+0 (T0 – BOTTOM / PS- & PS+)* T10 / 1 & 2, T11 / 1 & 2

+1 (T1 / PS- & PS+) T11 / 3 & 4, T12 / 1 & 2+2 (T2 / PS- & PS+) T12 / 3 & 4, T13 / 1 & 2+3 (T3 / PS- & PS+) T13 / 3 & 4, T14 / 1 & 2+4 (T4 / PS- & PS+) T14 / 3 & 4, T15 / 1 & 2+5 (T5 / PS- & PS+) T15 / 3 & 4, T16 / 1 & 2

NOTE: T0–TOP is reserved for SLC connections only (see Figure 8). All power supplies, external to the cabinet (in which the CMF-300-6 is housed), should be connected to T0–T5 which are suitable connectors for field wiring. The 1 x 4 terminal blocks, shown on page 1, should be used to make these connections.

All NACs can be wired to be powered by separate external supplies (figures 9 and 11 are typical), or a single supply (figures 10 and 12 are typical) can be shared among multiple NACs. If a supply is to be shared, between NACs wired to a common PCB, use the short power supply jumpers shown on page 1. The jumpers can be used on T11–T15. Refer to Table 4 for jumper functions.

When multiple (2 or more) NAC circuits share a power supply, the wiring for the power supply must be in conduit and 20 feet or less from the CMF-300-6 Module.

TABLE 4:

JUMPER LOCATION NAC PAIR SHARING SUPPLY

T11* +0 and +1

T12 +1 and +2

T13* +2 and +3

T14 +3 and +4

T15* +4 and +5

NOTE: Jumpers must be placed on T11, T13 and T15 for all Class A, Style Z applications.A supply can be wired to be shared among multiple PCBs in the same cabinet (figure 13 is typical). To share among multiple PCBs: use the long power sup-ply jumpers (shown on page 1) to connect either T10 or T16, of one PCB, to either T10 or T16 of the other PCB.

An EOL relay must be used for every external power supply (figures 9–12 are typical). The EOL relay coil should always be connected at the external power supply input of the module which is connected to the ends of the wires which are farthest from the power supply. The EOL relay contacts should always be connected in series with the NAC wiring of the same module. The EOL relay coil should be connected across the PS+ (red wire) and PS- (black wire) if it is connected at T0 – T5. The EOL relay coil should be connected across adjacent pins (red – even pin#, black – odd pin#), of the same connector, if T10 – T16 are used.

All wiring must be in accordance with the NEC, NFPA 72 and all other applica-ble codes and standards. All external power supplies must be voltage regulated with battery back-up. All external power supplies, EOL relays, and notification appliances must be UL listed for fire protection signaling applications.

FIGURE 8:

ENABLE POWER SUPPLY MONITOR

DISABLE SHORT CIRCUIT PROTECTION

SYNC GENERATOR

SIDE VIEW:

TOP VIEW:

SLC WIRING TERMINALNOTIFICATION APPLIANCE/POWER SUPPLY TERMINAL

DISABLE 1DISABLE 2DISABLE 3

A/B SELECT

C0228-01WIRING NOTES

• Power-limited circuits must employ type FPL, FPLR, or FPLP cable as required by Article 760 of the NEC.

• For easier wiring, assign all power-limited wiring to one side rather than alternating with non power-limited.

PROGRAMMINGThe CMF-300-6 module operates with the following Fire Alarm Control Panels:

• MS-9200 • MS-9600 • MS-9050

NAC WIRING AND SUPERVISIONFor Class B, Style Y applications (figures 9 & 10 are typical): connect the posi-tive terminal of the notification appliance(s) to the NAC+ terminal and the negative device terminal to the adjacent NAC- terminal. Connect one (for each NAC) of the supplied EOL resistors across the NAC+ and NAC- wires, at the ends farthest away from the NAC terminal of the CMF-300-6.

For Class A, Style Z applications (figures 11 & 12 are typical) wire the NACs per table 2. The A/B select shunt must be removed prior to connecting the CMF-300-6 to the SLC. The EOL resistors should not be used. The CMF-300-6 is capable of supporting 3 Class A, Style Z NACs. The CMF-300-6 will only re-spond at the base address, base address +2, and base address +4 (assuming no addresses have been disabled).

TABLE 2:

NAC# (+) CONNECTIONS (–) CONNECTIONS

+0+0 NAC+, +1 NAC+,

NOTIFICATION APPLIANCE++0 NAC–, +1 NAC–,

NOTIFICATION APPLIANCE–

+2+2 NAC+, +3 NAC+,



+4+4 NAC+, +5 NAC+,



POWER SUPPLY WIRING AND SUPERVISIONTable 3 gives an overview of how the power connectors, T0–T5 and T10–T15, are interconnected by the circuit board (PCB). The external supply connection points, at T0–T5, are marked by PS– and PS+ on the PCB legend. Pin 1 is indicated by a dot next to T10–T16. The odd pins, on T10–T16, always con-nect to PS– pins (e.g. PS–, of the +0 NAC, is connected to T10–1 and T11–1). The even pins always connect to PS+ pins (e.g. PS+, of the +5 NAC, is con-nected to T15-4 and T16-2).

F300-21-00 5 I56-1874-016

FIGURE 9: EXAMPLE OF CLASS B, STYLE Y NAC CONFIGURATION WITH A SINGLE SUPPLY DEDICATED TO A SINGLE NAC

BASE ADDRESS

STATUSINDICATORS

NAC

PSNA

CPS

—

++

—

NAC

PS—

+

+

—NA

CPS

—

++

—

NAC

TOP

BOT

–

++

NAC

––

+

– PS

+SL

C

PS—

+

+

—

+1+2

+3+4

+5T1

1T1

0

T0 +0

T12

T1T2

T3T4

T5

T13

T14

T15

T16

ENA

BLE

PO

WER

SU

PPLY

MO

NIT

OR

DIS

AB

LE S

HO

RT

CIR

CU

IT P

RO

TEC

TIO

N

—

++

—

A/B SELECTDISABLE 1DISABLE 2DISABLE 3

012345 6 7 8 9

0

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EXTERNALPOWERSUPPLY

TO NEXTDEVICE

–+–

+FROM PANEL ORPREVIOUS DEVICE

–+

–+

SIGNAL LINE CIRCUIT (SLC) 32 VDC MAX.SEE PANEL INSTRUCTION MANUAL

FOR WIRE REQUIREMENTS.

(–)

(+)

POWER-LIMITEDAND SUPERVISED

TOP OF T0

EOLR-1

A2143-10

RED

VIO VIO

RED

BLK

BLK

(–)

(+)

+

–

47K

NOTE: EOL RELAY COIL CONNECTIONS MUST BE MADE USINGEOL RELAY CONNECTOR ASSEMBLIES ON T10-T16 IN EVENTTHAT ALL NACS ON THE PCB HAVE DEDICATED SUPPLIES.

FIGURE 10: EXAMPLE OF CLASS B, STYLE Y NAC CONFIGURATION WITH A SINGLE SUPPLY SHARED BY 2 NACS

BASE ADDRESS

STATUSINDICATORS

NAC

PSNA

CPS

—

++

—

NAC

PS—

+

+

—NA

CPS

—

++

—

NAC

TOP

BOT

–

++

NAC

––

+

– PS

+SL

C

PS—

+

+

—

+1+2

+3+4

+5T1

1T1

0

T0 +0

T12

T1T2

T3T4

T5

T13

T14

T15

T16

ENA

BLE

PO

WER

SU

PPLY

MO

NIT

OR

DIS

AB

LE S

HO

RT

CIR

CU

IT P

RO

TEC

TIO

N

—

++

—


012345 6 7 8 9

0

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EXTERNALPOWERSUPPLY

TO NEXTDEVICE

–+–


–+

–+

–+

–+




TOP OF T0

+

–

(–)

(+)VIO VIO

RED

BLK

(–)

(+)

(–)

(+)

(–)

(+)

A2143-10

EOLR-1

A2143-10

47K

47K

C0816-02

C0817-02

F300-21-00 6 I56-1874-016

FIGURE 11: EXAMPLE OF CLASS A, STYLE Z NAC CONFIGURATION WITH A SINGLE SUPPLY DEDICATED TO A SINGLE NAC

BASE ADDRESS

STATUSINDICATORS

NAC

PSNA

CPS

—

++

—

NAC

PS—

+

+

—NA

CPS

—

++

—

NAC

TOP

BOT

–

++

NAC

––

+

– PS

+SL

C

PS—

+

+

—

+1+2

+3+4

+5T1

1T1

0

T0 +0

T12

T1T2

T3T4

T5

T13

T14

T15

T16

ENA

BLE

PO

WER

SU

PPLY

MO

NIT

OR

DIS

AB

LE S

HO

RT

CIR

CU

IT P

RO

TEC

TIO

N

—

++

—


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0

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REMOVE SHUNT FOR CLASS A.

EXTERNALPOWERSUPPLY

TO NEXTDEVICE

–+–


–+

–+

–+



(–)

(+)


TOP OF T0

EOLR-1(TYP)

REDVIO VIO

RED

BLK

BLK

(–)

(+)

+

–

FIGURE 12: EXAMPLE OF CLASS A, STYLE Z NAC CONFIGURATION WITH A SINGLE SUPPLY SHARED BY 2 NACS

BASE ADDRESS

STATUSINDICATORS

NAC

PSNA

CPS

—

++

—

NAC

PS—

+

+

—NA

CPS

—

++

—

NAC

TOP

BOT

–

++

NAC

––

+

– PS

+SL

C

PS—

+

+

—

+1+2

+3+4

+5T1

1T1

0

T0 +0

T12

T1T2

T3T4

T5

T13

T14

T15

T16

ENA

BLE

PO

WER

SU

PPLY

MO

NIT

OR

DIS

AB

LE S

HO

RT

CIR

CU

IT P

RO

TEC

TIO

N

—

++

—


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0

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910111213

1415

REMOVE SHUNT FOR CLASS A.

TO NEXTDEVICE

–+–


–+

–+



(–)

(+)


TOP OF T0

EOLR-1(TYP)

REDVIO VIO

RED

BLK

BLK

(–)

(+)

EXTERNALPOWERSUPPLY

+–(–)

(+)

(–)

(+)

C0818-02

C0819-04

F300-21-00 7 I56-1874-016 ©2014 Fire•Lite

FIGURE 13: EXAMPLE OF MULTIPLE BOARDS SHARING SAME EXTERNAL SUPPLY. SUPPLY IS SHARED BY NACS +0 AND +1 (ON PCB 1) AS WELL AS +3, +4, AND +5 (ON PCB 2). REFER TO FIGURES 9–12 FOR TYPICAL NAC WIRING. MAKE CERTAIN LIP ON LONG POWER SUPPLY JUMPER ENGAGES RETAINING TAB ON T10 OR T16 AS SHOWN IN VIEW A-A.

BA

SE

AD

DR

ES

S

NACPS NACPS— + + —

NACPS— + + —

NACPS— + + —

NAC

TOPBOT

– ++ NAC –

– +– PS +

SLC

PS— + + —

+1+2+3+4+5

A

A

T11 T10

T0+0

T12

T1T2T3T4T5

T13T14T15

T16



— + + —

A/B

SELE

CT

DIS

ABLE

1D

ISAB

LE 2

DIS

ABLE

3

0123456

78

9

078

65 4 3 21

9 10 11 12 1314

15BA

SE

AD

DR

ES

S

NACPS NACPS— + + —

NACPS— + + —

NACPS— + + —

NAC

TOPBOT

– ++ NAC –

– +– PS +

SLC

PS— + + —

+1+2+3+4+5T11 T10

T0+0

T12

T1T2T3T4T5

T13T14T15

T16



— + + —

A/B

SELE

CT

DIS

ABLE

1D

ISAB

LE 2

DIS

ABLE

3

0123456

78

9

078

65 4 3 21

9 10 11 12 1314

15

EXTERNALPOWERSUPPLY

+ –PCB 1 PCB 2

VIEW A-A

C0233-00

This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must ac-cept any interference received, including interference that may cause undesired operation.Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in

a commercial environment. This equipment generates, uses and can radiate radio fre-quency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.

FCC STATEMENT

Fire-Lite CH6 Data Sheet

Documents

Transcript of Fire-Lite CH6 Data Sheet